E6706F 1xEV-DO Lab ApplicationFor the 8960 Series 10 (E5515C/E) Wireless Communications Test Set

Technical Overview

Achieve reliable high data rate testing results and gain confidence in your 1xEV-DO wireless access terminals

As the first one box test set solution to support 1xEV-DO, 1xEV-DO Release A, Release B, and eHRPD, the Agilent Technologies E6706F 1xEV-DO lab applica-tion in conjunction with the 8960 Series 10 (E5515C/E) wireless communica-tions test set provides a wide range of parametric and functional test capabili-ties for 1xEV-DO. The E6706F is designed for use in many stages of the mobile device development lifecycle, with the capacity to meet both RF and functional testing needs. This test solution improves the problem-solving efficiency of R&D engineers who design, integrate, verify, and validate leading-edge 1xEV-DO wire-less access terminals (ATs).

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•Supports1xEV-DORelease0andReleaseAdefaultpacketapplicationfor IP-based application test and verification•Supports1xEV-DORelease0FTAP/RTAP,ReleaseAFETAP/RETAP,and Release B FMCTAP and RMCTAP call processing for accurate physical layer performance qualifications•ReleaseBfunctionalityfortestingaccessterminalsthatsupportmulticarrier operation and the new subtype 3 physical layer used in 1xEV-DO Release B•ReleaseAdefaultpacketapplicationsupportenablesdatathroughputtesting withspeedsupto3.1Mbpsontheforwardlinkand1.8Mbpsonthereverselink•ProtocolloggingwiththeincludedwirelessprotocoladvisorPCsoftware providesdetailedlogsatmultiplelayersinthe1xEV-DOprotocolstackfor quickdebuggingofprotocolissues•Highprecision,alldigitalI/QbasebandfadingusingtheAgilentexternal Baseband Studio solution (requires incremental hardware) provides all defined fading profiles for 1xEV-DO with digital repeatability and accuracy•BasicmobileIPsupportinthetestsetisenabledintheE6706F.FullmobileIP protocol test support through use of the Software Concepts MOB-IP-SIM with the E6706F lab application• IS-856testmodeallowsreceiverandtransmittertestingwithoutcallprocessing•Agilenttwo-boxsolution(theAgilentLTEtesterPXT,andE5515C/E)supports non-optimized/optimized handover from LTE to eHRPD with enhanced eHRPD functionality

• Optimized handover from LTE to eHRPD

• Cell reselection/redirection from eHRPD to LTE

• Fast dormancy timer

• VSNCP enhancement

• BC0 subclass 4 channel support

Key Features

What’s New?

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E6706F Functionality Overview

Standardized over-the-air protocol connectionsThe E6706F 1xEV-DO lab application includes call processing that supports the standardized over-the-air protocols. The 1xEV-DO lab application offers the default packetapplicationusedinactualnetworksforRelease0andReleaseAaswellas the test application (FTAP/RTAP, FETAP/RETAP, FMCTAP, RMCTAP) used for parametric tests for the 1xEV-DO Release 0, Release A, and Release B air interfaces.

Thedefaultpacketapplicationemulatestheactual1xEV-DOnetworkbyprovidingdata connectivity from the TCP/IP layer (via the rear panel LAN connector) to the access terminal. Sustained data throughput rates can reach full data rates of 3.1 Mbps to an AT and 1.8 Mbps from the AT for the E5515C/E mainframe. The E6706F supports simple IP and basic mobile IP connections and, when combined with the Software Concepts MOB-IP-SIM, provides full mobile IP support.

The1xEV-DOtestapplicationprotocolsallowquickandefficientcontroloftheforward and reverse operation for accurate parametric testing. FTAP/FETAP/FMCTAPprovidespacketerrorrate(PER)measurementcapabilityforRF connections up to 3.1 Mbps. RTAP/RETAP/RMCTAP provides the ability to controltheAT’sreverselinktotestsuchparametersascodedomainpower and waveform quality at all of the available reverse data rates.

eHRPD supportTopreparenetworksforinteroperationwithfutureLTEimplementations,the3GPP2 standard committee has developed a new version of the 1xEV-DO upper layer protocol stackknownaseHRPD.Thismodifiedstackprovidestheupperlayer protocols compatible with the 3GPP EPC. This capability will eventually drive handovers between LTE and 1xEV-DO. The eHRPD implementation in the 8960Series10buildsupontheexisting1xEV-DOpacketdatafoundationoffullthroughputMFPA,EMPA,andRoHC(robustheadercompression).WorkingtogetherwiththeAgilentLTEone-boxtesterPXT,E6706FonE5515C/Esupportsnon-optimized handover from LTE to eHRPD. The following features are available on the E6706F lab application:

•SupportforLTEneighborlistsetup•SupportforHSGWcontextandothersettings•Priorsessionrestore•PDNnamingsettingsforeHRPD•Supportfornetwork-initiatedVSNCPre-syncforIPv4andIPv6•MessagetoUEforeHRPDtestcases•Enable/Disablerouteradvertisementmessage

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E6706F Functionality Overview (continued)

Release A test supportThe E6706F supports testing of the 1xEV-DO Release A physical subtype 2 air interface using the enhanced test application protocol. Call processing with this newairinterfaceissimpleandeasyusingonebuttoncommands,justlikeitiswith the existing Release 0 functionality. The E6706F supports all of the new forward traffic channel configurations and enables accurate PER testing under realistic conditions using the FETAP protocol (forward enhanced test application protocol).UsingthenewRETAPprotocol(reverseenhancedtestapplicationprotocol),allofthenewsubtype2reversechannelpacketsizesandmodulationtypes are easily tested for such parameters as power, waveform quality, code domain power, and conducted spurious emissions.

Release B test supportThe E6706F supports testing of the 1xEV-DO Release B physical subtype 3 air interface using the multi-carrier test application protocol. Release B allows user traffic to flow over more than one carrier, which significantly improves data rates.UptothreeE5515C/EinstrumentswiththeE6706Fapplication(onepercarrier) can be synchronized together to perform Release B multi-carrier testing, oroneboxcanbeusedformultiplecarriersinfactorytestmodeonly.Usingthe new multi-carrier test application protocol, the 8960 Series 10 test solution supports Tx measurements including waveform quality and frequency accuracy, maximum RF output power, and conducted spurious emissions. Supported Rx measurements include demodulation of forward traffic channel in AWGN, receiver sensitivity and dynamic range.

Hybrid modeWhen combined with another E5515C/E running the E6702F cdma2000® lab application, the E6706F 1xEV-DO lab application supports cdma2000/1xEV-DO hybrid mode operation. The built-in multi-unit synchronization capability allows the two units to be synchronized on CDMA system time to allow for hybrid mode call processing and functional test.

Mobile IPBasic mobile IP support has been added to the E6706F application that enables the AT to pass mobile IP negotiation. Complete mobile IP and data session handoff tests require the addition of the Software Concepts Inc MOB-IP-SIM. Together, the E6706F, E5515C/E, and the MOB-IP-SIM provide a powerful solu-tion for verifying the AT’s mobile IP protocol behaviors.

Fading testsOption 004 adds a rear panel digital bus that enables fading when used with Agilent’sN5106APXBbasebandgeneratorandchannelemulator.Thissolutionprovides receiver fading tests with unprecedented accuracy and repeatability ataveryattractivepricepoint.BasebandI/QdatafromtheE5515C/EissentviathedigitalbustothePXB,wherereal-timefadingisappliedbasedonuser-selected fading profiles. After digital fading, AWGN can be digitally added to the waveform. The resulting waveform is then returned to the test set via the digital bus for modulation. This solution eliminates almost all associated calibrations and provides consistent repeatability.

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E6706F Functionality Overview (continued)

Protocol loggingThe wireless protocol advisor PC software included with the E6706F 1xEV-DO lab application opens the ability to log and analyze protocol messages sent between the test set and AT. Besides the ability to capture specific events or messages, the wireless protocol advisor allows you to build customized filters to capture and analyze just the information you want. Messages can be examined from the following protocol layers: forward and reverse SLP-D, forward and reverse TAP, forward and reverse RLP, forward and reverse PPP, and forward and reverse IP layer. Captured data, as well as any customized triggers and filters, can be stored for future use. With this powerful protocol logging capability, you canquicklytrackdownissuesintheprotocolstackofyour1xEV-DOaccessterminal.

1xEV-DO test mode supportReceiver test without active call processing is supported in the E6706F 1xEV-DO lab application through the IS-856 test mode. In test mode, the E6706F provides anaccurate1xEV-DORelease0/A/Bforwardlinksignalthatallowsaccessterminals supporting test mode operation to achieve time alignment. At this point, the AT can be directed to demodulate the forward traffic channel that is continuouslytransmittedbythetestset.ThepacketerrorrateoftheATcanthen be read from the AT using the AT’s test mode control software. In addition, AT transmitter measurements such as channel power, Tx spurious emissions, and time response of open loop power can be made in test mode.

Easy upgrade for existing CDMA-capable 8960 Series 10 test setsUnitsthatsupporttheCDMAapplications,liketheE6702F,caneasilybeupgradedtosupport1xEV-DOtestcapabilities.Usingthelatestlabapplicationfeaturesonexisting E5515C units may require purchasing hardware upgrade(s).

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E6706F Functionality Overview (continued)

1xEV-DO call processing• UATIassign• Session close• Connect• FTAP/FETAP/FMCTAP support• Channel handoff• Release0defaultpacketapplication•MFPA• EMPA• Fast dormancy timer

• Enhanced EMPA• RoHC (robust header compression)• IPv4, IPv6, IPv4+IPv6• Session open• Session negotiation• Disconnect• RTAP/RETAP/RMCTAP support• Band handoff• VSNCPenhancement

Tx measurements• Average power• Code domain power•Modulation quality• Spectrum monitor• Tx dynamic power measurement• Fast device tune measurement

• Channel power• Access probe power• Time response of open loop power• Tx spurious emissions• Graphical access probe power

Rx measurements• FTAPloopback• Sensitivity• PER with AWGN• Data throughput

• FETAPloopback• Dynamic range• PER with fading (optional fader)• Data rate histogram

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Technical Specifications

These specifications apply to the E5515E, or E5515C mainframe with Option 003 installed, when used with the latest shipping version of the E6706F lab application. These applications also include functionality described within the E1966A 1xEV-DO test application data sheet. For details visit www.agilent.com/find/E1966A.

Specifications describe the test set’s warranted performance and are valid over the entire operation and environmental ranges unless otherwise noted. All specifications are valid after a 30-minute warm-up period of continuous operation.

Supplemental characteristics are intended to provide additional information use-ful in applying the instrument by giving typical, but non-warranted performance parameters. These characteristics are shown in italics and labeled as typical, or supplemental. All units shipped from the factory meet these typical numbers at 25 °C ambient without including measurement uncertainty.

Additionally, these specifications also apply to an E5515C/E mainframe with Option003runningthelatestshippingversionoftheE6706Ulabapplicationoverthe25°C±5°Cambienttemperaturerange.TheE6706Uoperatingcondi-tions are 0 to 35 °C.

Resident formats 1xEV-DOCall processing timing tolerance

Mobile transmissions must be typically within ±6 µs of test set’s transmitted pilot channel clock timing for proper reverse channel acquisition

Overhead messages Sync message with real-time long code and system timeupdate,quickconfigurationmessage,sectorparameters message, and access parameters message

Protocol stack 1xEV-DO Release 0, Release A, or Release B using test application protocol (TAP/FTAP/RTAP, ETAP/FETAP/RETAP, or MCTAP/FMCTAP/RMCTAP, respectively),defaultpacketapplicationprotocolforRelease0andReleaseA,andMulti-FlowPacketApplication for Release A

Base station parameters ACK channel gain, DRC channel gain, data offset nom, dataoffset9k6,dataoffset19k2,dataoffset38k4,dataoffset76k8,anddataoffset153k6

Enhanced idle state protocol Supports user-settable slot cycles to be set ranging from 0.1066 to 40.96 seconds

R-DRC fixed mode attribute

On or Off. Default of On. When in the On state, the test set transmits the user-set forward traffic rate. When in the off state, the test set transmits the forward configuration per the received DRC value transmitted by the AT

1xEV-DO call processing functionality

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1xEV-DOdefaultpacketapplication

DefaultpacketapplicationProtocol stack 1xEV-DO Release 0 and Release A

Default packet application operation

Allows the test set to emulate a complete data networkbyprovidingtransparentconnectivitytoa 1xEV-DO AT. Supports simple IP and mobile IP connections. Requires that the test be connected to an external server via the rear panel LAN connector

R-DRC channel mode Test set decodes the R-DRC and changes the forward traffic channel to match the requested rate

DRC length User-settableto2,4,or8slots

Early termination Supportedintheforwardlink

AT directed packets Test set automatically directs the forward traffic channel to another MAC address that is not in use if therearenopacketsreceivedviatheLANtosendtothe AT under test

Data rate Supportsallforwardratesfrom38.4kbpsto3.1Mbps.Connected AT dynamically selects the actual data rateused.Supportsallreverseratesfrom9.6kbpsto 1.8 Mbps. Connected AT dynamically selects the actual data rate used

Data over signaling in the reverse link

Supports voice data in the signaling message on the control channel from the AT

Dormant mode Supported

RLP control counters Provides counters for forward and reverse reset messages, NAK messages, and NAKKed octets

RLP data counters Provides counters for forward and reverse new octets, retransmittedoctets,andpackets

IP data counters Provides counters for forward and reverse bytes and packets

Forward traffic data counters

Providescountersforthenumberofpacketstransmitted at the following configurations as commanded by the AT:38.4kbps76.8kbps153.6kbps307.2kbps307.2kbps614.4kbps614.4kbps921.6kbps1228.8kbps1228.8kbps1843.2kbps2457.6kbps

16slots,QPSK8slots,QPSK4slots,QPSK2slots,QPSK4slots,QPSK1slot,QPSK2slots,QPSK2 slots, 8PSK1slot,QPSK2slot,16QAM1 slot, 8PSK1slot,16QAM

(DRC = 0x1)(DRC = 0x2)(DRC = 0x3)(DRC = 0x4)(DRC = 0x5)(DRC = 0x6)(DRC = 0x7)(DRC = 0x8)(DRC = 0x9)(DRC = 0xA)(DRC = 0xB)(DRC = 0xC)

TotalnumberofpacketsdirectedtotheATTotal number not directed to the AT

Reverse traffic data counters

Providescountersforthenumberofpacketstransmitted at the following rates:9.6kbps19.2kbps38.4kbps78.6kbps153.6kbps

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Defaultpacketapplication(continued)IP throughput monitor Displays a graph of the data throughput for forward and

reversepacketsattheIPlayer,andattheRLPlayer

IP throughput numeric results

Provides numeric results for the current, average, and peakdataratesinbitspersecondaswellastotalnumber of bytes transferred for forward and reverse IPpacketsandforwardandreverseOTA(over-the-air-RLP)packets

IP throughput display axis controls

Time spanStart data rateStop data rate

0 to 600 seconds0to4999kbps0to5000kbps

IP throughput trace controls

On/OfffunctionandmarkerfunctionforIPTxtrace,IPRx trace, OTA (RLP) Tx trace, and OTA (RLP) Rx trace

IP throughput graph controls Clear display and freeze displayPing function Allowstheusertotestnetworkconnectionsrequired

fordefaultpacketcapability.Reportsnumberofpacketstransmitted,numberofpacketsreceived,percent lost, and round trip time minimum/average/maximum

Mobile IP support The E6706F supports two solutions for mobile IP support. The first is basic functionality that does not require any external devices. The 8960 Series 10 processes the reverse mobile IP related messages and generates corresponding forward mobile IP messages in order for the AT to pass mobile IP registration. The second solution provides support for Software Concepts Inc’s mobile IP simulator models MIP-5800 MOB-IP-SIMorMIP-5850MOB-IP-SIM.Usercontrolforinternal simple IP support or external mobile IP support fordefaultpacketoperation.InterfacestothemobileIP simulator through the test set’s LAN port. When in external mobile IP mode, the test set sends the data out through the LAN port in PPP over Ethernet format

Mobile IP functionsInternal mobile IP state

Home agent shared secret (Hex)

External PDSN state

External PDSN IP addressExternal PDSN TCP port

Sets whether simple IP or mobile IP is used. Settable to On or Off. External PDSN state must be set to Off forthistotakeeffectSetsthesecretkeyusedinmobileIPauthenticationprocedure. Must match the MN-HA (mobile node – home agent) secret programmed by the ATOn or Off. When On, outputs PPP data via the LAN connector to the external MIP-5800 or MIP-5850 mobile IP simulatorsAccepts IPv4 standard address0 to 65535

Instrument IP addressesUser parameters Displays

IPv6 prefix, IPv6 default router address IPv6link-localprefix,LANIPv6IID(derivedfromMACID), LAN 2 IPv6 IID (derived from MAC ID)

Data channel addressesData channel parameters

DUT IPv6 IID

DUTIPv6DNSserverprefix,DUTIPv6DNSserverIID,DUTIPv6P-CSCFserver(SIPproxy)prefix,andDUTIPv6 P-CSCF server (SIP proxy) IID automatically set by the test set, no user entry

1xEV-DOdefaultpacketapplication (continued)

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1xEV-DOmulti-flowpacketapplication

Multi-flowpacketapplicationProtocol stack 1xEV-DO Release A onlyMulti-flow packet application operation

Allowsthetestsettoemulateacompletedatanetworkby providing transparent connectivity to a 1xEV-DO AT. Supports multiple IP flows in both the forward and reverselinkstosupportqualityofservice.Requiresthatthe test be connected to an external server via the rear panel LAN connector

Air interface support Supports all physical layer subtype 2 parameters and functionality

IP flows Supports up to 16 forward and reverse IP flowsRLP flows Supports 5 forward RLP flows and 5 reverse RLP flowsRTC MAC subtype 3 flows Supports 4 user-configurable RTCMAC subtype 3 flowsMapping rules Supports a default mapping rule and 6 user-configurable

mapping rules. When a phone requests an IP flow, the test set searches the user-defined mapping rules to find a match for the requested profile ID. If a match is found, then the test set maps the IP flow according to the user-defined rule. If no match is found, the test set applies the default rule and maps the IP flow to the best effort flow

Forward mapping rule parameters

Foreachofthe6user-configurablemappingrules:Usersettable profile ID (hex input), RLP flow mapping (RLP flow 0 through 4), reservation idle state behavior (no change, close with connection, or follow connection), and AN scheduler priority (0 through 7 with 0 being the lowest priority)

Reverse mapping rule parameters

Foreachofthe6user-configurablemappingrules:Usersettable profile ID (hex input), RLP flow mapping (RLP flow 0 through 4), and reservation idle state behavior (no change, close with connection, or follow connection)

Forward RLP flow parameters For each of the 5 RLP flows: MFPA NAK enable (on or Off), MFPA abort timer (ms), MFPA flush timer (ms), MFPA header size (14 or 22 bits), MFPA RLP ID (binary)

Reverse RLP flow parameters For each of the 5 RLP flows: MFPA NAK enable (On or Off), MFPA physical layer NAK enable (On or Off), MFPA abort timer (ms), MFPA flush timer (ms), MFPA header size (14 or 22 bits), MFPA RLP ID (binary), MFPA RTC MAC flow mapping (flows 1 through 4), and MFPA data over signaling allowed (On or Off)

Data throughput monitor Supports four user-definable data throughput monitor (DTM)contextsinboththeforwardandreverselinksthatcan be assigned to any of the mapping rules. Each context appears on the data throughput monitor as a trace allowing analysis of data throughput for a specific IP flow

Session application pre-configurations

Supports four pre-configurations that set all related MFPA parameters of specific applications: Preset values (return to power-up state), IS-856 protocol default values, MFPA maximum throughput best effort with video telephony at 64kbps,andMFPAbesteffortwithvideotelephonyat 64kbps

Traffic channel MAC pre-configurations

Supports for each of the 4 RTC MAC subtype 3 flows the following pre-configurations: Preset with maximum throughput, IS-856 protocol default values, SIP/RTCP, video64kbps,audioforvideoat64kbps,besteffort,gaming, and voice over IP

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Multi-flowpacketapplication(continued)Session application pre-configurations

Supports four pre-configurations that set all related MFPA parameters of specific applications: Preset values (return to power-up state), IS-856 protocol default values, MFPA maximum throughput best effort with video telephony at 64kbps,MFPAbesteffortwithvideotelephonyat64kbps

Forward traffic MAC parameters DRC supervision timer, and minimum continuation span RTC MAC non-flow parameters Number of RTC MAC flows, merge threshold, payload

threshold, pilot strength filter time constant, T2P no Tx filter time constant, TxT2P, pilot strength axis 0 value, TxT2P maximum pilot strength axis 0, pilot strength axis 1 value, TxT2P maximum pilot strength axis 1, pilot strength axis 2 value, TxT2P maximum pilot strength axis 2, permitted payload 0 sub-frame 1, permitted payload 0 sub-frame 2, permitted payload 0 sub-frame 3, permitted payload 128 sub-frame 1, permitted payload 128 sub-frame 2, permitted payload 128 sub-frame 3, permitted payload 256 sub-frame 1, permitted payload 256 sub-frame 2, permitted payload 256 sub-frame 3, permitted payload 512 sub-frame 1, permitted payload 512 sub-frame 2, permitted payload 512 sub-frame 3, permitted payload 768 sub-frame 1, permitted payload 768 sub-frame 2, permitted payload 768 sub-frame 3, permitted payload 1024 sub-frame 1, permitted payload 1024 sub-frame 2, permitted payload 1024 sub-frame 3, permitted payload 1536 sub-frame 1, permitted payload 1536 sub-frame 2, permitted payload 1536 sub-frame 3, permitted payload 2048 sub-frame 1, permitted payload 2048 sub-frame 2, permitted payload 2048 sub-frame 3, permitted payload 3072 sub-frame 1, permitted payload 3072 sub-frame 2, permitted payload 3072 sub-frame 3, permitted payload 4096 sub-frame 1, permitted payload 4096 sub-frame 2, permitted payload 4096 sub-frame 3, permitted payload 6144 sub-frame 1, permitted payload 6144 sub-frame 2, permitted payload 6144 sub-frame 3, permitted payload 8192 sub-frame 1, permitted payload 8192 sub-frame 2, permitted payload 8192 sub-frame 3, permitted payload 12288 sub-frame 1, permitted payload 12288 sub-frame 2, and permitted payload 12288 sub-frame 3,

Flow NN simple parameters Provides for each RTC MAC sub-type 3 flow: Merge threshold, maximum T2P inflow, minimum T2P inflow, T2Pfiltertimeconstant,maximumbucketlevel,burstduration factor, and transmission mode

1xEV-DOmulti-flowpacketapplication (continued)

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Multi-flowpacketapplication(continued)Flow NN complex parameters ProvidesforeachRTCMACsub-type3flow:Bucket

factorT2Paxisnumber(1to3),bucketfactorFRABaxisnumber(1to3),bucketfactorT2Paxis00value,bucketfactorT2Paxis01value,bucketfactorFRABaxis0value,bucketfactorFRABaxis1value,bucketfactorFRABaxis2value,bucketfactorT2Paxis00FRABaxis0,bucketfactorT2Paxis00FRABaxis1,bucketfactorT2Paxis00FRABaxis2,bucketfactorT2Paxis01FRABaxis0,bucketfactorT2Paxis01FRABaxis1,bucketfactorT2Paxis01FRABaxis2,T2P transition function T2P axis number, T2P transition function FRAB axis number, T2P transition function T2P axis 00 value, T2P transition function T2P axis 01 value, T2P transition function T2P axis 02 value, T2P transition function T2P axis 03 value, T2P transition function FRAB axis 0 value, T2P transition function FRAB axis 1 value, T2P transition function FRAB axis 2 value, T2P transition function FRAB axis 3 value, T2P up T2P axis 00 FRAB axis 0, T2P up T2P axis 00 FRAB axis 1, T2P up T2P axis 00 FRAB axis 2, T2P up T2P axis 00 FRAB axis 3, T2P up T2P axis 00 FRAB axis 4, T2P up T2P axis 01 FRAB axis 0, T2P up T2P axis 01 FRAB axis 1, T2P up T2P axis 01 FRAB axis 2, T2P up T2P axis 01 FRAB axis 3, T2P up T2P axis 01 FRAB axis 4, T2P up T2P axis 02 FRAB axis 0, T2P up T2P axis 02 FRAB axis 1, T2P up T2P axis 02 FRAB axis 2, T2P up T2P axis 02 FRAB axis 3, T2P up T2P axis 02 FRAB axis 4, T2P up T2P axis 03 FRAB axis 0, T2P up T2P axis 03 FRAB axis 1, T2P up T2P axis 03 FRAB axis 2, T2P up T2P axis 03 FRAB axis 3, T2P up T2P axis 03 FRAB axis 4, T2P down T2P axis 00 FRAB axis 0, T2P down T2P axis 00 FRAB axis 1, T2P down T2P axis 00 FRAB axis 2, T2P down T2P axis 00 FRAB axis 3, T2P down T2P axis 00 FRAB axis 4, T2P down T2P axis 01 FRAB axis 0, T2P down T2P axis 01 FRAB axis 1, T2P down T2P axis 01 FRAB axis 2, T2P down T2P axis 01 FRAB axis 3, T2P down T2P axis 01 FRAB axis 4, T2P down T2P axis 02 FRAB axis 0, T2P down T2P axis 02 FRAB axis 1, T2P down T2P axis 02 FRAB axis 2, T2P down T2P axis 02 FRAB axis 3, T2P down T2P axis 02 FRAB axis 4, T2P down T2P axis 03 FRAB axis 0, T2P down T2P axis 03 FRAB axis 1, T2P down T2P axis 03 FRAB axis 2, T2P down T2P axis 03 FRAB axis 3, T2P down p T2P axis 03 FRAB axis 4

1xEV-DOmulti-flowpacketapplication(continued)

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Enhancedmulti-flowpacketapplicationProtocol stack 1xEV-DO Release A onlyEnhanced multi-flow packet application operation

Allowsthetestsettoemulateacompletedatanetworkby providing transparent connectivity to a 1xEV-DO AT. In EMPA the test set supports multiple IP flows in both theforwardandreverselinkswithRoHCandqualityofservice. Requires that the test be connected to a external servers (SIP and application) via the rear panel LAN connector

Air interface support Supports all physical layer subtype 2 parameters and functionality

IP flows Supports up to 16 forward and reverse IP flowsRLP flows Supports 5 forward RLP flows and 5 reverse RLP flowsRTC MAC subtype 3 flows Supports 4 user-configurable RTCMAC subtype 3 flowsForward mapping rule parameters

Foreachofthe6user-configurablemappingrules:Usersettable profile ID (hex input), RLP flow mapping (RLP flow 0 through 4), reservation idle state behavior (no change, close with connection, or follow connection), and AN scheduler priority (0 through 7 with 0 being the lowest priority)

Reverse mapping rule parameters

Foreachofthe6user-configurablemappingrules:Usersettable profile ID (hex input), RLP flow mapping (RLP flow 0 through 4), and reservation idle state behavior (no change, close with connection, or follow connection)

Forward link flow parameters For each of the 5 RLP flows: EMPA NAK enable (On or Off), EMPA abort timer (ms), EMPA flush timer (ms), EMPA sequence length (6, 14, or 22 bits), EMPA data configuration(HDLCframing,packet/octet,orpacket/packet),EMPAoutoforderdeliveryallowed(OfforOn)

Reverse link flow parameters For each of the 5 RLP flows: EMPA NAK enable (On or Off), EMPA physical layer NAK enable (On or Off), EMPA transmit abort timer specified state (not specified or specified), EMPA transmit abort timer (ms), EMPA abort timer (ms), EMPA flush timer (ms), EMPA sequence length (6, 14, or 22 bits), EMPA data configuration (HDLC framing,packet/octet,orpacket/packet),EMPARTCMAC flow mapping (flows 1 through 4), and EMPA data over signaling allowed (On or Off)

Robust header compression (RoHC)

Supportsforforwardlinkflows2,3,and4:MaxCID,largeCIDstate,maximumreconstructedreceptionunit(MRRU),profile count, profile 1, profile 2, profile 3 Supportsforreverselinkflows2,3,and4:ROHCmode(O-Mode,R-Mode,orU-Mode),maxCID,largeCIDstate,maximumreconstructedreceptionunit(MRRU),timerbased compression state, profile count, profile 1, profile 2

Data throughput monitor Supports four user-definable data throughput monitor (DTM)contextsinboththeforwardandreverselinksthat can be assigned to any of the mapping rules. Each context appears on the data throughput monitor as a trace allowing analysis of data throughput for a specific IP flow

Session application pre-configurations

Supports five pre-configurations that set all related EMPA parameters of specific applications: Preset values (return to power-up state), IS-856 protocol default values, EMPA maximum throughput best effort with video telephonyat64kbps,EMPAbesteffortwithvideotelephonyat64kbps,andEMPAVoIP

1xEV-DOenhancedmulti-flowpacketapplication

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Enhancedmulti-flowpacketapplication(continued)Traffic channel MAC pre-configurations

Supports each of the 4 RTC MAC subtype 3 flows the following pre-configurations: Preset with maximum throughput, IS-856 protocol default values, SIP/RTCP, video64kbps,audioforvideoat64kbps,besteffort,gaming, and voice over IP

Forward traffic MAC parameters DRC supervision timer and minimum continuation spanRTC MAC non-flow parameters Same as listed under MFPA Flow NN simple parameters Same as listed under MFPAFlow NN complex parameters Same as listed under MFPA

Alternateenhancedmulti-flowpacketapplicationProtocol stack 1xEV-DO Release A onlyAlternate enhanced multi-flow packet application operation

Allows the test set to emulate a complete eHRPD data networkbyprovidingtransparentconnectivitytoa1xEV-DO AT. In alternate EMPA (eHRPD) mode, the test sets the FlowNN protocol ID to 7. In this mode the test set supports the new VSNCP protocol and internal eAN/ePCF plus HSGW functions. In alternate EMPA mode the test set supports multiple IP flows in both the forward and reverselinkswithRoHCandqualityofservice.Requiresthat the test be connected to a external servers (SIP and application) via the rear panel LAN connector

Air interface support Supports all physical layer subtype 2 parameters and functionality

IP flows Supports up to 16 forward and reverse IP flowsRLP flows Supports 5 forward RLP flows and 5 reverse RLP flowsRTC MAC subtype 3 flows Supports 4 user-configurable RTCMAC subtype 3 flowsForward mapping rule parameters

Same as listed under EMPA

Reverse mapping rule parameters

Same as listed under EMPA

Forward link flow parameters Same as listed under EMPA Reverse link flow parameters Same as listed under EMPARobust header compression (RoHC)

Same as listed under EMPA

Data throughput monitor Same as listed under EMPA Session application pre-configurations

Same as listed under EMPA

Traffic channel MAC pre-configurations

Same as listed under EMPA P

Forward traffic MAC parameters DRC supervision timer and minimum continuation spanRTC MAC non-flow parameters Same as listed under MFPA Flow NN simple parameters Same as listed under MFPAFlow NN complex parameters Same as listed under MFPAEAP-AKA’ parameters

Authentication state Authentication key (K) (hex)  

Operator variant algorithm config field (OP) (hex) Authentication management field (AMF) (hex) Reset authentication SQN

On or Off (default)32 hex character user input with default value of “4147494C454E5420544543484E4F0000” 32 hex character user input with default value of “00000000000000000000000000000000” 4 hex character user input with default value of “8000”

UsercommandtoresettheSQNvalue

1xEV-DOenhancedmulti-flowpacketapplication (continued)

1xEV-DOalternateenhancedmulti-flowpacketapplication

15

Hybrid mode functionality

(Requires two units, one running the E6706F 1xEV-DO lab application and one running the E6702F cdma2000 lab application.Unitsmustbesynchronizedusing the multiple unit sync feature.)

Hybrid modeFunctionality Supports cdma2000/1xEV-DO hybrid mode operation

when used with an E5515C/E running the E6702F cdma2000 lab application. Requires that the two units are synchronized using the multi-unit synchronization capability

Basic hybrid mode test capabilities

•Hybridmodesystemacquisition•1xEV-DOpowersavemode•Preferredcontrolchannelcyclenegotiation•Dual-idleoperationonCDMAand1xEV-DO•CDMAvoicecalloriginationindual-idlestate•CDMAvoicecalloriginationindormant1xEV-DOstate•CDMAvoicecalloriginationin1xEV-DOconnectedstate•CDMAvoicecallterminationindual-idlestate•CDMAvoicecallterminationinCDMAidle/1xEV-DO dormant state•CDMAvoicecallterminationin1xEV-DOconnectedstate•SMSoriginationindual-idlestate•SMSoriginationinCDMAidle/1xEV-DOdormantstate•SMSoriginationin1xEV-DOconnectedstate•SMSterminationindual-idlestate•SMSterminationinCDMAidle/1xEV-DOdormantstate•SMSterminationin1xEV-DOconnectedstate•1xEV-DOpacketdatacalloriginationindual-idlestate•1xEV-DOpacketdatacallre-originationin1xEV-DO dormant state•1xEV-DOpacketdatacallterminationin1xEV-DOdormant state•CDMApacketdatacallwhen1xEV-DOserviceis unavailable

Advanced hybrid mode test capabilities (requires the use of the Software Concepts MOB-IP-SIM)

•MIPcallwhenusingstatichomeIP•MIPcallwhenusingdynamichomeIP•MIPtoSIPfallbackifMIPcallfailswhiletryingpacket data call on 1xEV-DO•MIPtoSIPfallbackifMIPcallfailswhiletryingpacket data call on CDMA•Active1xEV-DOtoCDMAdatasessionhandoff•Dormant1xEV-DOtoCDMAdatasessionhandoff•DormantCDMAto1xEV-DOdatasessionhandoff•1xEV-DOtoCDMAto1xEV-DOdatasessionhand-back

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Product specifications and descriptions in this document subject to change without notice.

© Agilent Technologies, Inc. 2013PublishedinUSA,April26,20135991-2369EN

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